Inspection and Adjustment Methods for Poor Stripping Performance of Fiber Strippers?

(1) Adjust the blade height according to the fiber cladding diameter.

(2) Replace worn blades promptly to prevent poor stripping and scratches on the fiber caused by blade wear.

(3) Fiber slippage: Select the correct model of fixture based on the coating diameter, check if the clamping rubber strips on the fixture are aged, and adjust the pulling force value according to the fiber cladding diameter.

Troubleshooting and Adjustment Methods for Abnormal Operation of Fiber Coating Units?

(1) Incomplete curing or adhesion to the mold after coating: Adjust the curing power and duration.

(2) Insufficient resin filling: Adjust the resin injection volume and ensure the coating mold is unobstructed.

(3) Bubbles in the coating: Eliminate bubbles from the resin delivery pipeline and the resin itself before coating. Control the injection speed, as excessive speed can cause bubble formation.

(4) Inadequate fiber cleanliness can lead to coating defects. Thoroughly wipe the fiber, and promptly clean the mold after coating to maintain its cleanliness.

Troubleshooting and Adjustment Methods for Abnormal Operation of Fiber Optic Splicers?

(1) High splicing loss or poor cleaving quality: Caused by large end-face angles, chips, or burrs (check the fiber cleaver).

(2) Core misalignment: Clean the V-groove and calibrate the motor offset of the splicer.

(3) Electrode aging: Insufficient discharge intensity requires cleaning or replacing the electrode.

(4) Environmental interference: Strong wind or dust causing fiber or arc jitter.

(5) What to do if the splicer fails to recognize the fiber?
• Clean the fiber clamp and V-groove to ensure no debris remains.
• Check the quality of the fiber end face (poor cleaving may cause recognition failure).
• Confirm the correct fiber type setting (e.g., GDF/YDF).

Troubleshooting and Adjustment Methods for Abnormal Operation of Fiber Optic Cleavers?

（1) Pre-operation inspection: Check the cleaver fixture, pressure plate, and blade area for dust, oil stains, or debris from previous cleaving. If present, clean with specialized tools (air blower, cotton swabs dipped in alcohol).

（2) Blade condition: Visually inspect the blade for chips, cracks, severe wear, or contamination. Clean or replace the blade promptly if necessary.

（3) Poor cleaving angle: Use the correct cleaving program and fixture according to the cladding diameter. Incorrect program selection may damage the blade edge and result in poor cleaving.

（4) Excessive or insufficient tension: Excessive tension can cause uneven end faces with burrs, while insufficient tension may lead to incomplete cleaving, large angles, and blade edge damage, reducing the blade's service life.

（5) Fiber slippage: Use the correct fixture model according to the coating and cladding diameter of the fiber, and inspect before cleaving. If the above causes are ruled out, adjust the parallelism between the upper and lower covers of the platform.